CN101717119A - Method for producing sodium chromate by roasting chromium ore and small amount of soda - Google Patents
Method for producing sodium chromate by roasting chromium ore and small amount of soda Download PDFInfo
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- CN101717119A CN101717119A CN200910223821A CN200910223821A CN101717119A CN 101717119 A CN101717119 A CN 101717119A CN 200910223821 A CN200910223821 A CN 200910223821A CN 200910223821 A CN200910223821 A CN 200910223821A CN 101717119 A CN101717119 A CN 101717119A
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Abstract
The invention discloses a method for producing sodium chromate by roasting chromium ore and a small amount of soda. The method is characterized in that chromium ore and calcined soda are mixed, wherein the added quantity of the calcined soda is 35% to 45% of theoretical required amount for complete reaction with dichromium trioxide in the chromium ore; then the mixture is added to a rotary kiln for first roasting, the temperature of materials at a hot space in the kiln is 1000 DEG C to 1050 DEG C, wrought materials are cooled and leached to obtain a sodium chromate leaching solution and first chromium dregs; the first chromium dregs are dried and crashed for second roasting with newly added calcined soda, the use amount of the calcined soda is 30% to 50% of theoretical required amount for complete reaction with the dichromium trioxide in the first chromium dregs; the sodium chromate leaching solution and second chromium dregs can be obtained through roasting and leaching processes, the second chromium dregs, limestone and newly added calcined soda are roasted for the third time, the use amount of the calcined soda in the third roasting is 35% to 75% of theoretical required amount for complete reaction with the dichromium trioxide in the second chromium dregs, and the use amount of the limestone is 2% to 5% of the sum of weight of three raw materials of the second chromium dregs, the calcined soda and the limestone; and the sodium chromate leaching solution and third chromium dregs are obtained after leaching. By adopting method of the invention, the utility ratio of the calcined soda is also enhanced greatly.
Description
Technical field
The present invention relates to a kind of method of producing sodium chromate by roasting chromium ore and small amount of soda.
Background technology
During with the rotary kiln baking chrome ore, if the amount of liquid phase in the furnace charge (being melts) greater than 30%, furnace charge can't normally carry out production serious sintering.Therefore, the production method of chromic salts has mainly contained calcium sinter process (chrome ore and soda roasting add calcareous filler) and calcium-free roasting technology (chrome ore and soda roasting, return slag is as filler).It is to utilize the method for adding calcareous filler to improve maturing temperature that the calcium roasting is arranged, control melts content.Calcium-free roasting is to utilize adding roasting return slag to improve temperature, control melts content.More than two kinds of roasting method all be under the condition of sufficient alkali number, to carry out, just the consumption of soda ash reaches the Theoretical Calculation consumption substantially, and soda ash is disposable whole adding and chrome ore roasting.Therefore, when sufficient alkali roasting, if do not have calcareous filler or return slag, then the amount of liquid phase in the stove will influence carrying out smoothly of chromium salt production well beyond 30%.Silicon in the chromite, aluminium, magnesium and alkali mainly generate aluminum magnesium silicate sodium, therefore, cause the alkali consumption in these two kinds of methods very big.
Produce Sodium chromate with chromite, generally be with chromite with addition of an amount of yellow soda ash, do filler with addition of an amount of Wingdale, rhombspar and return slag again, mixing.In 1100 ℃~1200 ℃ high-temperature roastings, chromium sesquioxide in the chrome ore and alkali reaction generate solubility chromic acid sodium in rotary kiln.Grog is through leaching, and Sodium chromate changes solution over to, and solid-liquid separation reaches the purpose of producing Sodium chromate.Traditional technology thinks, during the chromite roasting, and the amount that must calculate near experimental formula of with addition of soda ash amount at every turn, the soda ash consumption that calculates according to experimental formula is to be 1.4 times of chromium sesquioxide quality in the chrome ore.If soda ash use quantity not sufficient the time, the oxidation ratio of chromite will reduce, and then directly influences the chromium yield.But aforesaid method, owing to added the filler that contains a large amount of calcium oxide, but when roasting, will generate the Calucium Silicate powder and the iron calcium aluminate of chromic indissoluble solid and a large amount of aquations, when leaching, form a large amount of sour molten chromium (chromium calcium aluminate etc.), during leaching, molten chromium of acid and Sodium chromate are leached simultaneously, and this just causes the reduction of Sodium chromate leaching rate, and filter, wash difficulty, chromium slag band decreases serious, and the chromite utilization ratio is reduced.And the sour molten chromium in these slags can become water-soluble chromium again under the effect of Carbon Dioxide in Air and sunlight, easily is the dissolving of rainwater or surface water, causes the severe contamination of chromium slag to environment.Because the quantity of slag is big, this chromium residue detoxifying is difficult to thoroughly, and control expense is quite high.At present, some chromium salt factory are owing to the pollution problem of chromium slag is forced to stop production.
Summary of the invention
The objective of the invention is provides a kind of alkali consumption few in order to overcome deficiency of the prior art, can make full use of the method for few alkali baked for producing Sodium chromate of chrome ore.
For realizing above purpose, the present invention is achieved through the following technical solutions:
The method of producing sodium chromate by roasting chromium ore and small amount of soda is characterized in that, chrome ore, soda ash are mixed, the add-on of soda ash be with chrome ore in the required theoretical amount of chromium sesquioxide complete reaction 35%~45%; Add rotary kiln then and carry out the roasting first time, thermal zone temperature of charge is 1000 ℃~1050 ℃ in the kiln, and grog obtains Sodium chromate leach liquor and a chromium slag after cooling, leaching; Chromium slag is dried, is pulverized the back and carries out the roasting second time with initiate soda ash, the soda ash consumption be with a chromium slag in the required theoretical amount of chromium sesquioxide complete reaction 30%~50%; Behind roasting and leaching technology, can obtain Sodium chromate leach liquor and secondary chromium slag, secondary chromium slag and Wingdale and the soda ash roasting for the third time that adds once more, for the third time in the roasting soda ash consumption be with secondary chromium slag in the required theoretical amount of chromium sesquioxide complete reaction 35%~75%, the consumption of Wingdale is 2%~5% of secondary chromium slag, soda ash and three kinds of raw materials quality sums of Wingdale; Obtain chromic acid after the leaching and receive leach liquor and three chromium slags.
Preferably, during roasting for the first time, 1000 ℃~1050 ℃ roastings 35~75 minutes.
Preferably, during mixing, the batch mixing uniformity coefficient is 95%~97%.
Preferably, roasting is for the second time carried out in rotary kiln, and the interior thermal zone temperature of charge of roasting kiln is 1000 ℃~1050 ℃ for the second time, roasting time 35~65 minutes.
Preferably, roasting is for the third time carried out in rotary kiln, and the interior thermal zone temperature of charge of roasting kiln is 1000 ℃~1050 ℃ for the third time, roasting time 40~75 minutes.
Preferably, before each roasting, all need pulverize by the roasting material, pulverize the back and cross 200 mesh sieves, percent of pass is greater than 90%.
A chromium slag among the present invention is meant the chromium slag that produces after the roasting for the first time; Secondary chromium slag is meant the chromium slag that produces after the roasting for the second time; Three chromium slags are meant the chromium slag that produces after the roasting for the third time.
Few alkali roasting chemical reaction mechanism:
Chromite can be reduced to the primitive reaction equation of soda ash and oxygen:
Cr
2O
3+2Na
2CO
3+1.5O
2=2Na
2CrO
4+2CO
2???????(1)
Calculate 152 kilograms of Cr according to above reaction equation
2O
3Complete reaction, Na
2CO
3Theoretical consumption is 212 kilograms.
Chromite is a spinel structure, and its molecular formula can be expressed as:
[Mg
2+,Fe
2+][Cr
3+,Al
3+,Fe
3+]
2O
4
Or be reduced to MR
2O
4, M represents the Mg of divalence
2+, Fe
2+, R represents tervalent Cr
3+, Al
3+, Fe
3+
(1) about material heat to 500 ℃, the ferrous ion Fe in the picotite lattice
2+Oxidation by air distorts lattice, and then potential energy raises excessive trivalent ion R in the lattice
3+(R=Cr
3+, Al
3+, Fe
3+) dissociate out, form transition phase R
2O
3
2FeO+0.5O
2=Fe
2O
3????????????????????????(2)
(2) continue heating, the same MgR of soda ash
2O
4, R
2O
3, serpentine 3MgO2SiO
22H
2O, Mg
2SiO
4Reaction generates NaRO
2(NaCrO
2, NaFeO
2, NaAlO
2) and Na
2SiO
3
MgR
2O
4+Na
2CO
3=2NaRO
2+CO
2+MgO????????????(3)
R
2O
3+Na
2CO
3=2NaRO
2+CO
2????????????????(4)
Mg
2SiO
4+Na
2CO
3=Na
2SiO
3+2MgO+CO
2???????(5)
(3) in air about 700 ℃ particularly after 800 ℃, NaCrO
2Generate Sodium chromate, NaFeO with soda ash and oxygen reaction
2, NaAlO
2, Na
2SiO
3Also play a part to provide alkali source:
2NaCrO
2+1.5O
2+Na
2CO
3=2Na
2CrO
4+CO
2?????(6)
2NaCrO
2+1.5O
2+2NaFeO
2=2Na
2CrO
4+Fe
2O
3??(7)
2NaCrO
2+1.5O
2+2NaAlO
2=2Na
2CrO
4+Al
2O
3??(8)
2NaCrO
2+1.5O
2+Na
2SiO
3=2Na
2CrO
4+SiO
2???(9)
The Fe that generates in the formula (7)
2O
3To generate magnesioferrite with the free magnesium reaction.
Fe
2O
3+MgO==MgFe
2O
4???????????????????(10)
NaAlO
2+SiO
2=NaAlSiO
4??????????????????(11)
In few alkali roasting for the first time, also the following formula chemical reaction will take place during roasting for the second time:
6NaAlSiO
4+Na
2CrO
4=6NaAlSiO
4·Na
2CrO
4??(12)
Generate chromium noselite 6NaAlSiO
4Na
2CrO
4
Test shows: when lacking alkali roasting for the third time, owing to add Wingdale, compound 6NaAlSiO
4Na
2CrO
4In the sodium base will be replaced by the calcium base, participate in main reaction as alkali source after generating yellow soda ash, this also is that few alkali roasting soda ash is lower than one of reason of calcium-free roasting.
According to the law of mass action, reaction: reactant B is excessive among A (ore deposit)+B (alkali)=C (Sodium chromate), and then A must react more complete; In like manner, reactant A (ore deposit) is excessive, and then B (alkali) must react more complete, alkali utilization ratio height.
Because when lacking the alkali roasting: reactant A (ore deposit) is excessive, the same B of more A (alkali) collision was arranged in the unit time and bring out reaction, the spending rate of alkali is faster.Therefore lack the alkali roasting not only alkaline consumption to be lower than in sufficient alkali calcium-free roasting, the solution impurity low, and same device, production capacity will be higher than calcium-free roasting more than 15%.
Alkali described in the present invention is meant soda ash.
The inventive method does not use calcareous filler or return slag as filler during roasting, can not produce too much melts during roasting, can guarantee carrying out smoothly of chromium salt production.
The inventive method, at first during roasting owing to significantly reduced the consumption of the calcareous Wingdale that adds as filler, so the insoluble yellow ultramarine that produces can significantly reduce, also just reduced the loss of chromium in roasting process.When acidifying, still have calcium to exist, so filtrate does not need to have added the calcium vanadium removal yet.Secondly, roasting under the insufficient condition of alkali number, that aluminium silicon in the chrome ore and alkali roasting reaction generate is sodium nepheline (NaAlSiO
4), consumption aluminium amount reduces half, and alkali consumption generates aluminum magnesium silicate sodium than sufficient alkali roasting and lacks half.In addition, during roasting, because chromic oxide has very big excess quantity, not only temperature of reaction decreases, and speed of reaction is fast under the few condition of the theoretical consumption of soda ash amount ratio, and the utilization ratio of soda ash also improves greatly.
Embodiment
Below in conjunction with embodiment the present invention is described in detail:
Embodiment 1:
The method of producing sodium chromate by roasting chromium ore and small amount of soda, each main ingredient weight content is in the chrome ore:
| Chrome ore composition: % | ??Cr 2O 3 | ??Al 2O 3 | ??FeO | ??SiO 2 | ??CaO | ??MgO |
| ??50.71% | ??6.62% | ??11.86% | ??6.76% | ??0.24% | ??18.74% |
Chrome ore and soda ash are mixed in the cored screw mixer by weight 100: 26.51 ratio, and the batch mixing uniformity coefficient is 95%, the add-on of soda ash be with chrome ore in the required theoretical amount of chromium sesquioxide complete reaction 37.5%; Add rotary kiln then and carry out the roasting first time, thermal zone temperature of charge is 1000 ℃~1050 ℃ in the kiln, and thermal zone 1000 ℃~1050 ℃ roastings 50 minutes, grog obtained Sodium chromate leach liquor and a chromium slag after cooling, leaching; Each data after the roasting for the first time are as showing:
After one time the chromium slag is dried, is pulverized, rotary kiln in carry out the roasting second time at 100: 20.54 by chromium slag and soda ash weight ratio, thermal zone temperature of charge is 1000 ℃~1050 ℃ in the kiln, thermal zone 1000 ℃~1050 ℃ following roastings 60 minutes, the soda ash consumption be with a chromium slag in the required theoretical amount of chromium sesquioxide complete reaction 41.8%; Behind roasting and leaching technology, can obtain Sodium chromate leach liquor and secondary chromium slag.Each data behind the re-baking are as showing:
Secondary chromium slag after dried, crushed, pressed secondary chromium slag and soda ash weight ratio 100: 18.46, and add 4% weight ratio Wingdale (is benchmark with secondary chromium slag, soda ash and Wingdale gross weight) and in rotary kiln, carry out roasting for the third time, thermal zone temperature of charge is 1000 ℃~1050 ℃ in the kiln, thermal zone 1000 ℃~1050 ℃ following roastings 60 minutes, for the third time in the roasting soda ash consumption be with secondary chromium slag in the required theoretical amount of chromium sesquioxide complete reaction 56.8%, obtain chromic acid after the leaching and receive leach liquor and three chromium slags.
During each time roasting, the liquid phase in the grog (being melts) weight percentage is:
| Roasting for the first time | Roasting for the second time | Roasting for the third time | |
| Embodiment 1 | ??30.90% | ??30.41% | ??29.26% |
Before each roasting, all need pulverize by the roasting material, pulverize the back and cross 200 mesh sieves, percent of pass is greater than 90%.
It is as follows that roasting for the third time records data:
Embodiment 2:
The method of producing sodium chromate by roasting chromium ore and small amount of soda, each main ingredient weight percentage is in the chrome ore:
| Chrome ore composition: % | ??Cr 2O 3 | ??Al 2O 3 | ??FeO | ??SiO 2 | ??CaO | ??MgO |
| ??43.72% | ??13.81% | ??24.96% | ??3.49% | ??0.26% | ??10.91% |
Chrome ore and the soda ash ratio by 100: 24.09 is mixed in the cored screw mixer, and the batch mixing uniformity coefficient is 96%, the add-on of soda ash be with chrome ore in the required theoretical amount of chromium sesquioxide complete reaction 39.5%; Add rotary kiln then and carry out the roasting first time, thermal zone temperature of charge is 1030 ℃~1050 ℃ roastings 60 minutes in the kiln, and grog obtains Sodium chromate leach liquor and a chromium slag after cooling, leaching; Each data after the roasting for the first time are as showing:
A chromium slag after dried, crushed, press 100: 19.79 ratio of chromium slag and soda ash preparation compound, in rotary kiln, carry out the roasting second time, thermal zone temperature of charge is 1030 ℃~1050 ℃ in the kiln, roasting time 70 minutes, soda ash consumption be with a chromium slag in the required theoretical amount of chromium sesquioxide complete reaction 47.8%; Behind roasting and leaching technology, can obtain Sodium chromate leach liquor and secondary chromium slag.Each data behind the re-baking are as showing:
Secondary chromium slag after dried, crushed, pressing 100: 17.88 ratio of chromium slag and soda ash mixes, add 5% Wingdale (is benchmark with secondary chromium slag, soda ash and Wingdale gross weight) and in rotary kiln, carry out roasting for the third time, thermal zone temperature of charge is 1030 ℃~1050 ℃ in the kiln, roasting time 75 minutes, for the third time in the roasting soda ash consumption be with secondary chromium slag in the required theoretical amount of chromium sesquioxide complete reaction 74.3%, obtain chromic acid after the leaching and receive leach liquor and three chromium slags.
Before each roasting, all need pulverize by the roasting material, pulverize the back and cross 200 mesh sieves, percent of pass is greater than 90%.
During each time roasting, the liquid phase in the grog (being melts) weight percentage is:
| Roasting for the first time | Roasting for the second time | Roasting for the third time | |
| Embodiment 2 | ??28.55% | ??31.54% | ??30.57% |
It is as follows that roasting for the third time records data:
Embodiment 3 and 4:
The method of producing sodium chromate by roasting chromium ore and small amount of soda, each main ingredient weight percentage is in the chrome ore:
With chrome ore, soda ash mixes in the cored screw mixer, and the batch mixing uniformity coefficient is 97%, add rotary kiln then and carry out the roasting first time, thermal zone temperature of charge is 1000~1020 ℃ of roastings 65 minutes in the kiln, and grog obtains Sodium chromate leach liquor and a chromium slag after cooling, leaching;
A chromium slag after dried, crushed, chromium slag and initiate soda ash carry out the roasting second time in rotary kiln, 1010~1030 ℃ of roasting time of thermal zone temperature of charge are 80 minutes in the kiln, can obtain Sodium chromate leach liquor and secondary chromium slag behind roasting and leaching technology.
Secondary chromium slag after dried, crushed, secondary chromium slag mixes with soda ash, and add 5% Wingdale (is benchmark with secondary chromium slag, soda ash and Wingdale gross weight) and in rotary kiln, carry out roasting for the third time, 1000~1020 ℃ of roasting time of thermal zone temperature of charge are 75 minutes in the kiln, obtain chromic acid and receive leach liquor and three chromium slags.
Before each roasting, all need pulverize by the roasting material, pulverize the back and cross 200 mesh sieves, percent of pass is greater than 90%.
The raw material consumption and the test data of each time roasting are as follows:
Materials weight ratio during each time roasting:
Soda ash consumption during each time roasting and the per-cent of theoretical consumption:
| Roasting for the first time | Roasting for the second time | Roasting for the third time | |
| Embodiment 3 | ??39.3% | ??37.7% | ??43.2% |
| Embodiment 4 | ??40.7% | ??41.3% | ??62.6% |
The weight percent of each time roasting gained chromium slag and roasting raw material:
Calculation formula: (chromium slag ÷ roasting raw material) * 100%.
| The weight percent of chromium slag and the raw material of roasting for the first time | The weight percent of secondary chromium slag and the raw material of roasting for the second time | |
| Embodiment 3 | ??67.5% | ??57.42% |
| Embodiment 4 | ??62.9% | ??55.4% |
The main component of gained chromium slag is as follows after each time roasting:
During each time roasting, the liquid phase in the grog (being melts) weight percentage is:
| Roasting for the first time | Roasting for the second time | Roasting for the third time | |
| Embodiment 3 | ??29.1 | ??30.01 | ??28.9 |
| Embodiment 4 | ??30.02 | ??30.00 | ??29.1 |
It is as shown in the table for the chromium transformation efficiency of embodiment 3 and 4 after roasting:
Chromium transformation efficiency (%): the weight percent that is converted into the chromium total content in chromium that chromic acid receives and chrome ore, chromium slag, secondary chromium slag or three the chromium slags.
Embodiment 5 and 6
The method of producing sodium chromate by roasting chromium ore and small amount of soda, each main ingredient weight content is in the chrome ore:
With chrome ore, soda ash mixes in the cored screw mixer, and the batch mixing uniformity coefficient is 96%, add rotary kiln then and carry out the roasting first time, thermal zone temperature of charge is 1000~1020 ℃ of roastings 50 minutes in the kiln, and grog obtains Sodium chromate leach liquor and a chromium slag after cooling, leaching;
A chromium slag after dried, crushed, chromium slag and initiate soda ash carry out the roasting second time in rotary kiln, 1020~1040 ℃ of roasting time of thermal zone temperature of charge are 65 minutes in the kiln, can obtain Sodium chromate leach liquor and secondary chromium slag behind roasting and leaching technology.
Secondary chromium slag after dried, crushed, secondary chromium slag carries out roasting for the third time with adding soda ash once more and add 3% and 4% Wingdale (is benchmark with secondary chromium slag, soda ash and Wingdale gross weight) respectively in rotary kiln, thermal zone temperature of charge is 1000 ℃~1020 ℃ in the kiln, roasting time 70 minutes obtains chromic acid and receives leach liquor and three chromium slags.
Before each roasting, all need pulverize by the roasting material, pulverize the back and cross 200 mesh sieves, percent of pass is greater than 90%.
Materials weight ratio during each time roasting
Soda ash consumption during each time roasting and the per-cent of theoretical consumption:
| Roasting for the first time | Roasting for the second time | Roasting for the third time | |
| Embodiment 5 | ??36.6% | ??34.8% | ??35.9% |
| Embodiment 6 | ??40.9% | ??39.98% | ??50.9% |
The weight percent of each time roasting gained chromium slag and roasting raw material:
| The weight percent of chromium slag and the raw material of roasting for the first time | The weight percent of secondary chromium slag and the raw material of roasting for the second time | |
| Embodiment 5 | ??66.8% | ??56.4% |
| Embodiment 6 | ??63.6% | ??55.8% |
Main ingredient weight content (%) in the chromium slag that each time roasting obtains
During each time roasting, the liquid phase in the grog (being melts) weight percentage is:
| Roasting for the first time | Roasting for the second time | Roasting for the third time | |
| Embodiment 5 | ??28.9 | ??30.2 | ??29.2 |
| Embodiment 6 | ??30.1 | ??29.6 | ??28.9 |
It is as shown in the table for the chromium transformation efficiency of embodiment 5 and 6 after roasting:
Chromium transformation efficiency (%): chromium transformation efficiency (%): the weight percent that is converted into the chromium total content in chromium that chromic acid receives and chrome ore, chromium slag, secondary chromium slag or three the chromium slags.
Embodiment 7
The method of producing sodium chromate by roasting chromium ore and small amount of soda, each main ingredient weight content is in the chrome ore:
With chrome ore, soda ash mixes in the cored screw mixer, and the batch mixing uniformity coefficient is 96%, add rotary kiln then and carry out the roasting first time, thermal zone temperature of charge is 1010~1030 ℃ of roastings 64 minutes in the kiln, and grog obtains Sodium chromate leach liquor and a chromium slag after cooling, leaching;
After one time the chromium slag is dried, is pulverized, chromium slag and initiate soda ash carry out the roasting second time in rotary kiln, 1030~1050 ℃ of roasting time of thermal zone temperature of charge are 41 minutes in the kiln, can obtain Sodium chromate leach liquor and secondary chromium slag behind roasting and leaching technology.
Secondary chromium slag after dried, crushed, secondary chromium slag with add soda ash once more, 2% Wingdale (is benchmark with secondary chromium slag, soda ash and Wingdale gross weight) carries out roasting for the third time in rotary kiln, thermal zone temperature of charge is 1000 ℃~1020 ℃ in the kiln, roasting time 30 minutes obtains chromic acid and receives leach liquor and three chromium slags.
Before each roasting, all need pulverize by the roasting material, pulverize the back and cross 200 mesh sieves, percent of pass is greater than 90%.
Materials weight ratio during each time roasting:
During roasting for the first time, the soda ash consumption is 36.6% of a theoretical consumption; During roasting for the second time, the soda ash consumption is 38.5% of a theoretical consumption; During roasting for the third time, the soda ash consumption is 42.89% of a theoretical consumption.
The weight percent of each time roasting gained chromium slag and roasting raw material:
| The weight percent of chromium slag and the raw material of roasting for the first time | The weight percent of secondary chromium slag and the raw material of roasting for the second time | |
| Embodiment 7 | ??60.8% | ??61.5% |
Main ingredient weight content (%) in the chromium slag that each time roasting obtains
During each time roasting, the liquid phase in the grog (being melts) weight percentage is:
| Roasting for the first time | Roasting for the second time | Roasting for the third time | |
| Embodiment 7 | ??28.4 | ??30.1 | ??29.5 |
It is as shown in the table for the chromium transformation efficiency of embodiment 7 after roasting:
Chromium transformation efficiency (%): chromium transformation efficiency (%): the weight percent that is converted into the chromium total content in chromium that chromic acid receives and chrome ore, chromium slag, secondary chromium slag or three the chromium slags.
Embodiment 8
The method of producing sodium chromate by roasting chromium ore and small amount of soda, each main ingredient weight content is in the chrome ore:
With chrome ore, soda ash mixes in the cored screw mixer, and the batch mixing uniformity coefficient is 96%, add rotary kiln then and carry out the roasting first time, thermal zone temperature of charge is 1000 ℃~1020 ℃ roastings 75 minutes in the kiln, and grog obtains Sodium chromate leach liquor and a chromium slag after cooling, leaching;
After one time the chromium slag is dried, is pulverized, chromium slag and initiate soda ash carry out the roasting second time in rotary kiln, 1000~1020 ℃ of roasting time of thermal zone temperature of charge are 63 minutes in the kiln, can obtain Sodium chromate leach liquor and secondary chromium slag behind roasting and leaching technology.
Secondary chromium slag after dried, crushed, secondary chromium slag mixes with soda ash; Add 3% Wingdale (is benchmark with secondary chromium slag, soda ash and Wingdale gross weight) and carry out roasting for the third time in rotary kiln, 1010~1030 ℃ of roasting time of thermal zone temperature of charge are 43 minutes in the kiln, obtain chromic acid and receive leach liquor and three chromium slags.
Before each roasting, all need pulverize by the roasting material, pulverize the back and cross 200 mesh sieves, percent of pass is greater than 90%.
Materials proportioning during each time roasting
During roasting for the first time, the soda ash consumption is 36.7% of a theoretical consumption; During roasting for the second time, the soda ash consumption is 37.9% of a theoretical consumption; During roasting for the third time, the soda ash consumption is 43.6% of a theoretical consumption;
The weight percent of each time roasting gained chromium slag and roasting raw material:
| The weight percent of chromium slag and the raw material of roasting for the first time | The weight percent of secondary chromium slag and the raw material of roasting for the second time | |
| Embodiment 8 | ??60.2% | ??62.% |
Main ingredient weight content (%) in the chromium slag that each time roasting obtains
During each time roasting, the liquid phase in the grog (being melts) weight percentage is:
| Roasting for the first time | Roasting for the second time | Roasting for the third time | |
| Embodiment 8 | ??28.6 | ??29.8 | ??30.4 |
It is as shown in the table for the chromium transformation efficiency of embodiment 8 after roasting:
Chromium transformation efficiency (%): chromium transformation efficiency (%): the weight percent that is converted into the chromium total content in chromium that chromic acid receives and chrome ore, chromium slag, secondary chromium slag or three the chromium slags.
Embodiment among the present invention only is used for that the present invention will be described, does not constitute the restriction to the claim scope, and other substituting of being equal in fact that those skilled in that art can expect are all in protection domain of the present invention.
Claims (6)
1. the method for producing sodium chromate by roasting chromium ore and small amount of soda is characterized in that, chrome ore, soda ash are mixed, the add-on of soda ash be with chrome ore in the required theoretical amount of chromium sesquioxide complete reaction 35%~45%; Add rotary kiln then and carry out the roasting first time, thermal zone temperature of charge is 1000 ℃~1050 ℃ in the kiln, and grog obtains Sodium chromate leach liquor and a chromium slag after cooling, leaching; Chromium slag is dried, is pulverized the back and carries out the roasting second time with initiate soda ash, the soda ash consumption be with a chromium slag in the required theoretical amount of chromium sesquioxide complete reaction 30%~50%; Behind roasting and leaching technology, can obtain Sodium chromate leach liquor and secondary chromium slag, secondary chromium slag and Wingdale and the soda ash roasting for the third time that adds once more, for the third time in the roasting soda ash consumption be with secondary chromium slag in the required theoretical amount of chromium sesquioxide complete reaction 35%~75%, the consumption of Wingdale is 2%~5% of secondary chromium slag, soda ash and three kinds of raw materials quality sums of Wingdale; Obtain chromic acid after the leaching and receive leach liquor and three chromium slags.
2. the method for producing sodium chromate by roasting chromium ore and small amount of soda according to claim 1 is characterized in that, during roasting for the first time, 1000 ℃~1050 ℃ roastings 35~75 minutes.
3. the method for producing sodium chromate by roasting chromium ore and small amount of soda according to claim 1 is characterized in that, during mixing, the batch mixing uniformity coefficient is 95%~97%.
4. the method for producing sodium chromate by roasting chromium ore and small amount of soda according to claim 1 is characterized in that, roasting is for the second time carried out in rotary kiln, and the interior thermal zone temperature of charge of roasting kiln is 1000 ℃~1050 ℃ for the second time, roasting time 35~65 minutes.
5. the method for producing sodium chromate by roasting chromium ore and small amount of soda according to claim 1 is characterized in that, roasting is for the third time carried out in rotary kiln, and the interior thermal zone temperature of charge of roasting kiln is 1000 ℃~1050 ℃ for the third time, roasting time 40~75 minutes.
6. the method for producing sodium chromate by roasting chromium ore and small amount of soda according to claim 1 is characterized in that, before each roasting, all need pulverize by the roasting material, pulverizes the back and crosses 200 mesh sieves, and percent of pass is greater than 90%.
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Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN102275992A (en) * | 2011-05-31 | 2011-12-14 | 重庆民丰化工有限责任公司 | Two-stage roasting method for chromite |
| CN102432068A (en) * | 2011-09-28 | 2012-05-02 | 北京科技大学 | Process for producing sodium chromate |
| CN102627329A (en) * | 2012-04-27 | 2012-08-08 | 甘肃锦世化工有限责任公司 | Method for improving chromium conversion rate of chromium salt rotary kiln by using calcium-free fillers |
| CN103224253A (en) * | 2013-01-06 | 2013-07-31 | 内蒙古黄河铬盐股份有限公司 | Method for calcium-free calcination production of sodium chromate and chromium-containing cast iron as co-product |
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Family Cites Families (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US4244925A (en) * | 1979-07-20 | 1981-01-13 | Allied Chemical Corporation | Method for production of alkali metal chromates from chrome ores |
| IT1239958B (en) * | 1990-05-09 | 1993-11-27 | Stoppani Luigi Spa | PROCESS AND PLANT FOR THE PREPARATION OF ALKALINE CHROMATES FROM CHROME MINERALS |
| CN101066779B (en) * | 2007-05-24 | 2010-09-08 | 张天成 | Process of preparing sodium chromate product without calcium |
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| CN102275992A (en) * | 2011-05-31 | 2011-12-14 | 重庆民丰化工有限责任公司 | Two-stage roasting method for chromite |
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| CN103224253A (en) * | 2013-01-06 | 2013-07-31 | 内蒙古黄河铬盐股份有限公司 | Method for calcium-free calcination production of sodium chromate and chromium-containing cast iron as co-product |
| RU2555853C1 (en) * | 2013-12-03 | 2015-07-10 | Открытое акционерное общество "Новотроицкий завод хромовых соединений" | Method of producing sodium monochromate |
| CN103924096A (en) * | 2014-04-28 | 2014-07-16 | 攀枝花学院 | Method for recycling vanadium-chromium resources |
| CN103924096B (en) * | 2014-04-28 | 2016-05-04 | 攀枝花学院 | Reclaim the method for vanadium chromium resource |
| CN104163455A (en) * | 2014-08-01 | 2014-11-26 | 辽宁沈宏集团股份有限公司 | Method for preparing chromium salt |
| CN104163455B (en) * | 2014-08-01 | 2016-09-28 | 辽宁沈宏集团股份有限公司 | A kind of method preparing chromic salts |
| CN111847511A (en) * | 2020-07-21 | 2020-10-30 | 中国科学院过程工程研究所 | Method for purifying sodium chromate and coupling resource utilization of impurities |
| CN111847511B (en) * | 2020-07-21 | 2021-09-07 | 中国科学院过程工程研究所 | Method for purifying sodium chromate and coupling resource utilization of impurities |
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